CN220507879U - Guide rail type skylight glass outer surface detection gauge - Google Patents

Abstract

The utility model discloses a guide rail type skylight glass outer surface inspection and inspection tool, which includes a base and multiple guide rails arranged on the base. The multiple guide rails are arranged in the X and Y directions, and each guide rail is slidably connected with Slide blocks, each slide block is connected to a positioning cylinder in a one-to-one correspondence, and multiple positioning cylinders are configured to drive multiple slide blocks to move inward to clamp the skylight glass or move away to loosen the skylight glass; each slide block The blocks are equipped with peripheral contour detectors arranged along the X or Y direction and peripheral curvature detectors arranged along the Z direction. When the slider clamps the skylight glass, the peripheral contour detector can detect the peripheral contour of the skylight glass. At the same time, the peripheral curvature detector can detect the peripheral curvature of the skylight glass. This rail-type skylight glass outer surface inspection and inspection tool has a simple structure and is easy to process, has a short development cycle, low use cost, is easy to operate, and has accurate and reliable inspection results.

Description

Guide rail type skylight glass outer surface inspection tool

Technical field

The utility model relates to the technical field of automobile glass production and processing equipment. Specifically, it relates to a rail-type sunroof glass outer surface detection and inspection tool used for detecting the profile of automobile sunroof glass.

Background technique

Auto glass is an essential part of the car body accessories and mainly plays a protective role. There are three main types of automotive glass: laminated glass, tempered glass and regional tempered glass, which can withstand strong impact forces. Automobile glass is divided into four types according to its location: front windshield, side window glass, rear windshield and sunroof glass; the state mandates that the front windshield must be laminated glass (the front windshield of some cheap agricultural vehicles is still Tempered glass or area tempered glass) The side window glass is tempered glass, and the rear windshield is generally tempered glass with electric heating wires.

Since the automotive glass needs to be assembled to the body, in order to ensure the fit and appearance quality after assembly, it is necessary to control the matching curvature of the glass periphery and the body.

At present, the industry basically uses feeler gauges to detect the matching curvature of the glass periphery and the car body. Specifically, the car glass is placed on the profiling surface, and the gap between the lower surface of the car glass and the profiling surface is measured, and the measured result is The gap value is compared with the standard value to determine whether the matching curvature of the measured automobile glass periphery and the body is qualified. However, this manual inspection method has low efficiency and poor accuracy, and there is a quality hazard of inaccurate detection leading to the outflow of unqualified products.

Utility model content

The purpose of this utility model is to provide a guide rail type skylight glass outer surface inspection and inspection tool. The guide rail type skylight glass outer surface inspection and inspection device has a simple structure and is easy to process, has a short development cycle, low use cost, is easy to operate, and has accurate and reliable detection results.

In order to achieve the above purpose, the utility model provides a guide rail type skylight glass outer surface inspection and inspection tool. The guide rail type skylight glass outer surface inspection and inspection tool includes a base and multiple guide rails. The multiple guide rails are arranged in the X and Y directions. , each guide rail is slidably connected with a slider, and each slider is connected to a positioning cylinder in a one-to-one correspondence. Multiple positioning cylinders are configured to drive multiple sliders inward at the same time to clamp the skylight glass or outward. Move away to loosen the sunroof glass;

Each slider is provided with a peripheral contour detector arranged along the X or Y direction and a peripheral curvature detector arranged along the Z direction. When the slider clamps the skylight glass, the peripheral contour detector can detect the shape of the skylight glass. Peripheral contour, at the same time, the perimeter curvature detector can detect the perimeter curvature of the skylight glass.

Preferably, the central area on the base is provided with a support capable of supporting the skylight glass.

Preferably, a predetermined positioning member is formed on the side of the slider close to the support member for prepositioning the skylight glass placed on the support member.

Preferably, the base is also provided with a lifting cylinder, and the lifting cylinder is configured to lift the skylight glass along the Z direction.

Preferably, a compression cylinder is also provided on the base, and the compression cylinder is configured to compress the skylight glass along the Z direction.

Preferably, at least one of the slide blocks on the guide rails arranged in the X direction is provided with a centering mechanism, and the centering mechanism is configured to be able to center the skylight glass in the X direction.

Preferably, at least one of the slide blocks on the guide rail arranged in the Y direction is provided with a centering mechanism, and the centering mechanism is configured to be able to center the skylight glass in the Y direction.

Preferably, the peripheral contour detector is a dial indicator, and the dial indicator is rotatably mounted on the slider.

Preferably, the peripheral curvature detector is a dial indicator, and the dial indicator is rotatably installed on the slider.

Preferably, a plurality of lifting rings are provided along the circumferential direction on the edge of the base.

According to the above technical solution, the utility model arranges multiple guide rails on the base and arranges the multiple guide rails in the X and Y directions. Each guide rail is provided with a slidable slider, and each slider is connected to the positioning cylinder. Connect one by one, so that when the positioning cylinder is extended, the multiple sliders can slide inward along the guide rail until they are all squeezed together and surround the skylight glass to be inspected, tightly fixing the skylight glass. , at this time, you can start to use the gap ruler, dial indicator, pass and stop gauges and clamps to detect the shape and contour of the skylight glass. When you need to remove the inspected skylight glass, you only need to shorten the positioning cylinder and drive the multiple slide blocks to slide outward along the guide rail again. The middle clamping area on the base begins to loosen, and the inspected skylight glass can naturally be removed. It can be removed smoothly, the whole process is easy to operate, the clamping and fixing stability is high, and the detection results are accurate and reliable.

Other features and advantages of the present invention will be described in detail in the following detailed description.

Description of the drawings

The accompanying drawings are used to provide a further understanding of the present utility model and constitute a part of the specification. They are used to explain the present utility model together with the following specific embodiments, but do not constitute a limitation of the present utility model. In the attached picture:

Figure 1 is a schematic structural diagram of a rail-type skylight glass outer surface inspection tool provided according to the present utility model;

Figure 2 is a top view of the rail-type skylight glass outer surface inspection tool provided according to the present utility model;

Figure 3 is a top view of the use state of the guide rail type skylight glass outer surface inspection tool provided according to the utility model;

Figure 4 is a diagram of the use state of the guide rail type skylight glass outer surface inspection tool provided according to the present utility model.

Explanation of reference signs

1-Base 2-Guide rail

3-Sliding block 4-Positioning cylinder

5-Skylight glass 6-Peripheral contour detector

7-Peripheral curvature detector 8-Support

9-Predetermined positioning piece 10-Jacking cylinder

11-Compression cylinder 12-Centering mechanism

13-suspended ring

Detailed ways

Specific embodiments of the present invention will be described in detail below with reference to the accompanying drawings. It should be understood that the specific embodiments described here are only used to illustrate and explain the present invention, and are not intended to limit the present invention.

In the present invention, unless otherwise specified, the directional words included in the terminology such as "inside, outside, far, near, center" only represent the direction of the term under normal usage, or are not the same as those in this field. A common term as understood by those skilled in the art and should not be regarded as a limitation on the term.

Referring to Figures 1 and 2, the present utility model provides a guide rail-type skylight glass outer surface detection and inspection tool. The guide-rail type skylight glass outer surface inspection and inspection tool includes a base 1 and a plurality of guide rails 2 arranged on the base 1. The plurality of guide rails 2 are arranged on the base 1. The guide rails 2 are arranged in the X and Y directions. Each guide rail 2 is slidably connected to a slider 3. Each slider 3 is connected to a positioning cylinder 4 in a one-to-one correspondence. Multiple positioning cylinders 4 are configured to be able to drive multiple positions. The sliders 3 simultaneously move inward to clamp the skylight glass 5 or move away outward to loosen the skylight glass 5;

Each slider 3 is provided with a peripheral contour detector 6 arranged along the X or Y direction and a peripheral curvature detector 7 arranged along the Z direction. When the slider 3 clamps the skylight glass 5, the peripheral contour detector 6 can detect the peripheral contour of the skylight glass 5, and at the same time, the peripheral curvature detector 7 can detect the peripheral curvature of the skylight glass 5.

Through the above technical solution, multiple guide rails 2 are arranged on the base 1 and arranged in the X direction and Y direction. A slidable slider 3 is provided on each guide rail 2, and each slider 3 is Connected to the positioning cylinder 4 in a one-to-one correspondence, so that when the positioning cylinder 4 is opened and extended, the multiple sliders 3 can slide inward along the guide rail 2 until they all squeeze together and surround the skylight glass 5 to be inspected. Fix the skylight glass 5 tightly. At this time, you can start to use the gap ruler, dial indicator, pass and stop gauge and clamp board to detect the shape and contour of the skylight glass 5. When it is necessary to remove the skylight glass 5 after inspection, it is only necessary to shorten the positioning cylinder 4 and drive the multiple sliders 3 to slide outward along the guide rail 2 again. The middle clamping area on the base 1 begins to loosen. After inspection, The skylight glass 5 can naturally be removed smoothly (see Figures 3 and 4). The whole process is easy to operate, the clamping and fixing stability is high, and the detection results are accurate and reliable.

In this embodiment, in order to support the skylight glass 5 to be inspected placed on the rail-type skylight glass outer surface inspection tool from the bottom, preferably, the central area of the base 1 is provided with a structure capable of supporting the skylight glass 5 Support 8.

When placing the skylight glass 5 on the support 8 on the rail-type skylight glass outer surface detection and inspection tool, in order to accurately place it in place, save the time wasted during multiple manual adjustments, and improve the detection efficiency, it is preferred to slide A predetermined positioning member 9 is formed on the side of the block 3 close to the support member 8 for pre-positioning the skylight glass 5 placed on the support member 8 .

When the inspection of the outer surface of the sunroof glass is completed using the guide rail type skylight glass outer surface inspection tool, in order to assist in manually removing the inspected skylight glass, preferably, the base 1 is also provided with a jacking cylinder 10, and the jacking cylinder 10 is provided In order to be able to lift the skylight glass 5 along the Z direction.

Similarly, in order to assist in placing the skylight glass 5 on the support 8 on the rail-type skylight glass outer surface inspection tool, it can be firmly fixed to avoid the impact of the displacement of the skylight glass during subsequent manual or automatic inspection processes. To detect the accuracy of the data, preferably, the base 1 is also provided with a compression cylinder 11 , and the compression cylinder 11 is configured to compress the skylight glass 5 along the Z direction.

In addition, in order to avoid that the skylight glass is close to one side in the X direction when using the guide rail-type skylight glass outer surface inspection tool, and save time in adjusting the skylight glass, it is preferably in the slider 3 on the guide rail 2 arranged in the X direction. A centering mechanism 12 is provided on at least one piece of the glass, and the centering mechanism 12 is configured to be able to center the skylight glass 5 in the X direction.

Similarly, in order to prevent the skylight glass from being close to one side in the Y direction when using this rail-type skylight glass outer surface inspection tool, and to save time in adjusting the skylight glass, it is preferable to install the slider 3 on the guide rail 2 arranged in the Y direction. At least one of them is provided with a centering mechanism 12, and the centering mechanism 12 is configured to be able to center the skylight glass 5 in the Y direction.

In this embodiment, the peripheral contour detector 6 is a dial indicator, and the dial indicator is rotatably installed on the slider 3; the peripheral curvature detector 7 is a dial indicator, and the dial indicator is rotatably installed on the slider 3. superior. The dial indicator using this installation method can be rotated to the required angle according to the reading needs, which facilitates the inspection personnel to read intuitively and quickly and accurately judge the inspection results.

Since the rail-type skylight glass outer surface inspection and inspection tool is large in size and overall weight, it is inconvenient to carry manually and may easily lead to overturning accidents and damage to the inspection and inspection tool. In order to avoid this situation, it is best to install it on the base 1 A plurality of lifting rings 13 are provided along the circumferential direction. In this way, by hooking one or more lifting rings 13 with the lifting equipment, the rail-type skylight glass outer surface inspection tool can be moved and transported smoothly as a whole, safely and efficiently.

The preferred embodiments of the present utility model have been described in detail above with reference to the accompanying drawings. However, the present utility model is not limited to the specific details in the above-mentioned embodiments. Within the scope of the technical concept of the present utility model, many technical solutions of the present utility model can be carried out. These simple modifications all belong to the protection scope of the present utility model.

In addition, it should be noted that each of the specific technical features described in the above-mentioned specific embodiments can be combined in any suitable manner without conflict. In order to avoid unnecessary repetition, the present utility model combines various possible The combination method will not be further explained.

In addition, any combination of various embodiments of the present invention can also be carried out. As long as they do not violate the idea of the present utility model, they should also be regarded as the disclosed content of the present utility model.

Claims (6)

1. A guide rail-type skylight glass outer surface detection and inspection tool, characterized in that the guide rail-type skylight glass outer surface inspection and inspection tool includes a base (1) and a plurality of guide rails (2) arranged on the base (1) ), a plurality of the guide rails (2) are arranged in the X and Y directions, each of the guide rails (2) is slidably connected with a slider (3), and each of the sliders (3) is connected to The positioning cylinders (4) are connected in one-to-one correspondence, and multiple positioning cylinders (4) are configured to drive a plurality of the sliders (3) to move closer inward to clamp the skylight glass (5) or move farther away to loosen the skylight glass (5). Open the skylight glass (5); Each slider (3) is provided with a peripheral contour detector (6) arranged along the X-direction or Y-direction and a peripheral curvature detector (7) arranged along the Z-direction. When the slider (3) When the skylight glass (5) is clamped, the peripheral contour detector (6) can detect the peripheral contour of the skylight glass (5), and at the same time, the peripheral curvature detector (7) can detect the skylight glass (5) peripheral curvature; The central area on the base (1) is provided with a support (8) capable of supporting the skylight glass (5); A predetermined positioning member (9) is formed on the side of the slider (3) close to the support member (8) for predetermining the skylight glass (5) placed on the support member (8). Bit; The base (1) is also provided with a lifting cylinder (10), and the lifting cylinder (10) is configured to lift the skylight glass (5) in the Z direction; The base (1) is also provided with a compression cylinder (11), and the compression cylinder (11) is configured to compress the skylight glass (5) along the Z direction. 2. The guide rail type skylight glass outer surface inspection tool according to claim 1, characterized in that at least one of the slide blocks (3) on the guide rail (2) arranged in the X direction is provided with a There is a centering mechanism (12), which is configured to center the skylight glass (5) in the X direction. 3. The guide rail type skylight glass outer surface inspection tool according to claim 2, characterized in that at least one of the slide blocks (3) on the guide rail (2) arranged in the Y direction is provided with a There is a centering mechanism (12), which is configured to center the skylight glass (5) in the Y direction. 4. The rail-type skylight glass outer surface inspection tool according to claim 1, characterized in that the peripheral contour detector (6) is a dial indicator, and the dial indicator is rotatably installed on the slide. On block (3). 5. The rail-type skylight glass outer surface inspection tool according to claim 1, characterized in that the peripheral curvature detector (7) is a dial indicator, and the dial indicator is rotatably installed on the slide. On block (3). 6. The rail-type skylight glass outer surface inspection tool according to claim 1, characterized in that a plurality of lifting rings (13) are provided along the circumferential direction on the edge of the base (1).